An international team of scientists has modeled the formation and evolution of the strongest magnetic fields in the universe.

Collaboration at Mainz University enables the simulation of skyrmion dynamics on experimentally relevant time scales ...

Scientists have uncovered the long-sought mechanism behind low-field magnetars, showing that supernova fallback material ...

Earth’s magnetic field is detected by species across the animal kingdom, but new research suggests that sea turtles may be ...

Earth's magnetic field occasionally bursts into song — but these compositions are written with electromagnetic radiation, not ...

Earth’s magnetic field, generated by movements within its molten iron core, serves as a protective shield against solar winds and cosmic radiation. However, over the past century, scientists have ...

Combining experiments in microfluidic devices and computer simulation, this study provides a valuable analysis of the relevant parameters that determine the motility of (multicellular) magnetotactic ...

Skyrmions could revolutionize computing, but simulating them in real-time has been a challenge—until now. Researchers have ...

Magnetic whirl simulation in real time Collaboration at Mainz University enables the simulation of skyrmion dynamics on experimentally relevant time scales Date: January 30, 2025 Source: Johannes ...

One possible approach is the efficient simulation of these magnetic spin structures as particles, similar to the simulation of molecules in biophysics. Until now, however, there has been no ...